SE421463B - ADJUSTABLE SWITCH TRANSFORMER - Google Patents

Description

u: 0 7903062-3 TU The invention is explained in more detail below with reference to the accompanying drawing, in which figure 1 schematically shows two networks connected to each other over two lines, figure 2 shows the networks when transmitting different power over the two lines and figure 3 shows the transformer according to the invention.

First, an example explains how the active power flow in a network can be controlled by means of rotatable transformers.

As is well known, for the active power p transmitted over a line section with the impedance X: P = ï1ïg 'sin Åff12 ----- à PFS-'Y-Ig-Eê' Åfíâ XX where: Ul: the amplitude of the input voltage U2: amplitude of the output voltage X: the longitudinal impedance of the line ÅY12: 979 between the input and output voltage indicators.

It is assumed that 2 networks N4 and N2 (consisting of consumer and energy generator) are connected via two lines La and Lb with the impedances Xa and Xb.

The voltage indicators at positions 1 and 2 can in this case have the size and phase position according to Fig. 1.

The active power transmitted on the lines La and Lb from the network 4 to the network 2 is then: UU N1 Na Ûymm Xb P = Pa fi Pb f * UN1UN2 '4 712 “f Assuming that the impedances are Xa = Xß = X, it is transmitted in this case over each of the two wires La and Lb half the power. If it is now desired to transfer on the line Lb a larger and on the line La a smaller proportion of the whole power which is to remain constant, this can be achieved by arranging a transformer STP and 3Tb in both lines. adjustable f 9- rotation. à If you turn the second change indicator in the transformer STa with Åtf to * window and in 'transfer-naturrr .. .lšrlb mixed Å to the right as shown in rig. 2 is obtained for the transmission effect: U U Ü »U N '| H2 “E 'ï H2 Pa” Å ”_'" a 'Å efter: Pb ff * - ° A far-arn- Xa a Ab b' íï UU f * -wš-Nz-â '(Arrman "An' øffziiïz +37) a -l-â The example shows that, as has been desired, the unchanged effect is transferred to its degree to a greater degree by the line Lb and to a lesser extent by the line La.

The principle of the converter-controlled transformer proposed according to the invention is explained in connection with ïig. 5 as an example, whereby several modifications of the principle_ïv conceivable.

A voltage Eg (pointer) is applied to the input of the transformer. The task is to gradually set the voltage, see the secondary side of the transformer in amplitude and phase in the current W * to the voltage Q4.

The transformer's primary winding P is a grounded star point conductor, which is common in transformers with very high voltages.

The transformer's secondary winding S is in principle also star-connected with a grounded star point conductor. The main winding of each phase also includes 2 sub-windings located on the core of the adjacent phase, which also have outlets. One sub-winding is connected to the main winding, the other to the grounded star point. The two partial windings are not connected to each other.

In addition, per phase 2 there are converters STR with antiparallel-connected thyristors, which with their one connection can be connected to a socket (respectively with the beginning or with the end) of one sub-winding and with its other connection can be connected to the socket (resp. the beginning or end) of the second partial winding over the separator TR. Connected by do '15 w 7903062-5 The two inverters in each phase are connected via two associated disconnectors to a given socket (or the beginning or end) of the two transformer sub-windings.

The inverters are constantly on in operation. On the secondary side of the transformer, a voltage indicator corresponding to the selected terminal is thus set.

If the secondary voltage indicator Qe is to be changed in its amplitude or phase, the not yet switched-on converter is connected via the associated disconnector in a still electroless state to the desired sockets of the two sub-windings. Then you turn on this second converter (permanent pulses or quasi-permanent pulses) and remove the pulses from the first converter.

The commutation of the current from one to the other converter takes place within half a period.

The converters are normally arranged on the side of the transformer winding that has lower potential. When conditions allow, the converters can be designed as individual triacs instead of the version with anti-parallel thyristors.

The converter-controlled transformer proposed according to the invention also has the following essential properties: The converters are always either completely switched on or completely disconnected and consequently do not generate harmonics.

The nominal power of the converters amounts to a fraction of the transformer power.

By arranging the converter on the low potential side, the problem of insulation strength and ignition pulse transmission as well as similar problems can be particularly easily solved.

An increase in the number of steps, ie. the possibility of setting the phase shift in finer steps does not increase the converter assembly but the assembly in electrically disconnecting disconnectors.

Claims (8)

45 20 PJ \ J '"| 55 Paten requirements 1. 4. Adjustable transformers where to the main winding 1 each phase here on the core of .- ”or sub-windings arranged on the adjacent phase which are also provided with outlets. of which sub-windings one is connected to the main winding and the sub-windings are not connected to each other, characterized in that for each phase thyristor inverters [Sån] are arranged, which with their one connection are connected to a single trip. hsa the benefit or the end of a dellindníng (T) ash with its second connection are connected to the socket resp. the beginning or end of a second partial winding QT) over without effect are grazing separators (T2) @ Transformer according to Claim 1, characterized in that both the primary winding of the transformer and the secondary winding (S) of the transformer are star-connected with a grounded star-point conductor. 3. A transformer as claimed in Claim 4, characterized in that partial windings not connected to the main winding are connected to the grounded star point. 4. A transformer according to any one of claims 1-5, characterized in that two inverters (STEÉs are arranged for each phase, that each of the two inverters each phase is above two associated disconnectors (TR) in front of each other. with a given socket or with the beginning or end of each a transformer sub-winding (T), that one of the two converters (STR) is constantly lit in operation, that in order to change the indicator of the secondary voltage in amplitude or phase the converter not yet lit over an associated disconnector (TR) in a still de-energized state is connected to the desired sockets of the sub-windings (T) and that this converter is then switched on and the ignition pulses are removed from the other originally switched-on current mixer. 5. A transformer according to claim 4, characterized in that the commutation of the current from one to the other converter (STB) takes place within a half period. Transformer according to one of Claims 1 to 5, characterized in that the inverters are arranged on the potentially lower side of the associated transformer. 7903062-3 torlindningen. Transformer according to one of Claims 1 to 6, characterized in that the inverters consist of two anti-parallel thyristors. Transformer according to any one of claims 4-6, n e t e c k n a d triac. k ä n - that the converters are designed as